Image Width (pixels):
| Analyzed File | better_combined_thickerinnerlid v7 |
| Version | Autodesk Fusion 360 (2.0.8809) |
| Creation Date | 2020-08-21, 23:21:30 |
| Author | ryanh |
Title Studies Author ryanh
Study 1 - Modal Frequencies
Study Properties
Study Type Modal Frequencies Last Modification Date 2020-08-21, 21:57:54
Settings
General
Contact Tolerance 0.1 mm Number of Modes 10 Frequency Range [Hz] No Compute Preloaded Modes Yes Enhanced Accuracy No
Damping
Mesh
Average Element Size (% of model size) Solids 3 Scale Mesh Size Per Part No Average Element Size (absolute value) - Element Order Parabolic Create Curved Mesh Elements Yes Max. Turn Angle on Curves (Deg.) 60 Max. Adjacent Mesh Size Ratio 1.5 Max. Aspect Ratio 10 Minimum Element Size (% of average size) 20
Adaptive Mesh Refinement
Number of Refinement Steps 0 Results Convergence Tolerance (%) 20 Frequency Mode 1
Materials
Component Material Safety Factor Body1 Aluminum Yield Strength Body2 Aluminum Yield Strength Body3 Aluminum Yield Strength Body4 Aluminum Yield Strength better_combined_innerlid v10:1 Aluminum Yield Strength better_combined_innerlid v10:1/weight_lids v2:1 Aluminum Yield Strength better_combined_innerlid v10:1/weight_lids v2:2 Aluminum Yield Strength better_combined_innerlid v10:1/better_combined v18:1/axel v5:1 Aluminum Yield Strength better_combined_innerlid v10:1/better_combined v18:1/design_MArk2 v17:1 Aluminum Yield Strength better_combined_innerlid v10:1/better_combined v18:1/weights v2:1 Steel Yield Strength better_combined_innerlid v10:1/better_combined v18:1/weights v2:2 Steel Yield Strength better_combined_innerlid v10:1/better_combined v18:1/holders v12:1 Aluminum Yield Strength better_combined_innerlid v10:1/better_combined v18:1/holders v12:2 Aluminum Yield Strength
Aluminum
Density 2.7E-06 kg / mm^3 Young's Modulus 68900 MPa Poisson's Ratio 0.33 Yield Strength 275 MPa Ultimate Tensile Strength 310 MPa Thermal Conductivity 0.23 W / (mm C) Thermal Expansion Coefficient 2.36E-05 / C Specific Heat 897 J / (kg C)
Steel
Density 7.85E-06 kg / mm^3 Young's Modulus 210000 MPa Poisson's Ratio 0.3 Yield Strength 207 MPa Ultimate Tensile Strength 345 MPa Thermal Conductivity 0.056 W / (mm C) Thermal Expansion Coefficient 1.2E-05 / C Specific Heat 480 J / (kg C)
Contacts
Bonded
Name [M] [S] Bonded1 [weight_lids v2:1||Simulation Model 1:1(Body4)] [M] [S] Bonded2 [weight_lids v2:2||Simulation Model 1:1(Body4)] [M] [S] Bonded3 [axel v5:1||Simulation Model 1:1(Body4)] [M] [S] Bonded4 [holders v12:1||Simulation Model 1:1(Body4)] [M] [S] Bonded5 [holders v12:2||Simulation Model 1:1(Body4)] [M] [S] Bonded6 [weights v2:1||Simulation Model 1:1(Body4)] [M] [S] Bonded7 [weights v2:2||Simulation Model 1:1(Body4)] [S] Bonded8 [weights v2:2||holders v12:2] [S] Bonded9 [weights v2:1||holders v12:1] [S] Bonded10 [design_MArk2 v17:1||weights v2:1] [S] Bonded11 [design_MArk2 v17:1||holders v12:1] [S] Bonded12 [design_MArk2 v17:1||holders v12:1] [S] Bonded13 [design_MArk2 v17:1||holders v12:1] [S] Bonded14 [design_MArk2 v17:1||weights v2:1] [S] Bonded15 [design_MArk2 v17:1||weights v2:1] [S] Bonded16 [design_MArk2 v17:1||weights v2:2] [S] Bonded17 [design_MArk2 v17:1||holders v12:2] [S] Bonded18 [design_MArk2 v17:1||holders v12:2] [S] Bonded19 [design_MArk2 v17:1||weights v2:2] [S] Bonded20 [design_MArk2 v17:1||weights v2:2] [S] Bonded21 [design_MArk2 v17:1||holders v12:1] [S] Bonded22 [design_MArk2 v17:1||holders v12:1] [S] Bonded23 [design_MArk2 v17:1||weights v2:1] [S] Bonded24 [design_MArk2 v17:1||holders v12:2] [S] Bonded25 [design_MArk2 v17:1||holders v12:2] [S] Bonded26 [design_MArk2 v17:1||weights v2:2] [S] Bonded27 [design_MArk2 v17:1||weights v2:1] [S] Bonded28 [design_MArk2 v17:1||holders v12:2] [S] Bonded29 [design_MArk2 v17:1||weights v2:2] [S] Bonded30 [axel v5:1||design_MArk2 v17:1] [S] Bonded31 [weight_lids v2:2||holders v12:1] [S] Bonded32 [weight_lids v2:2||weights v2:1] [S] Bonded33 [weight_lids v2:2||design_MArk2 v17:1] [S] Bonded34 [weight_lids v2:1||holders v12:2] [S] Bonded35 [weight_lids v2:1||weights v2:2] [S] Bonded36 [weight_lids v2:1||design_MArk2 v17:1] [S] Bonded37 [better_combined_innerlid v10:1||weight_lids v2:2] [S] Bonded38 [better_combined_innerlid v10:1||weight_lids v2:1] [S] Bonded39 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded40 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded41 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded42 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded43 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded44 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded45 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded46 [better_combined_innerlid v10:1||design_MArk2 v17:1] [S] Bonded47 [better_combined_innerlid v10:1||weights v2:1] [S] Bonded48 [better_combined_innerlid v10:1||holders v12:1] [S] Bonded49 [better_combined_innerlid v10:1||holders v12:1] [S] Bonded50 [better_combined_innerlid v10:1||holders v12:1] [S] Bonded51 [better_combined_innerlid v10:1||weights v2:1] [S] Bonded52 [better_combined_innerlid v10:1||weights v2:1] [S] Bonded53 [better_combined_innerlid v10:1||weights v2:2] [S] Bonded54 [better_combined_innerlid v10:1||holders v12:2] [S] Bonded55 [better_combined_innerlid v10:1||holders v12:2] [S] Bonded56 [better_combined_innerlid v10:1||weights v2:2] [S] Bonded57 [better_combined_innerlid v10:1||weights v2:2] [S] Bonded58 [better_combined_innerlid v10:1||holders v12:1] [S] Bonded59 [better_combined_innerlid v10:1||holders v12:1] [S] Bonded60 [better_combined_innerlid v10:1||weights v2:1] [S] Bonded61 [better_combined_innerlid v10:1||holders v12:2] [S] Bonded62 [better_combined_innerlid v10:1||holders v12:2] [S] Bonded63 [better_combined_innerlid v10:1||weights v2:2] [S] Bonded64 [better_combined_innerlid v10:1||weights v2:1] [S] Bonded65 [better_combined_innerlid v10:1||holders v12:2] [S] Bonded66 [better_combined_innerlid v10:1||weights v2:2] [S] Bonded67 [better_combined_innerlid v10:1||axel v5:1] [S] Bonded68 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded69 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded70 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded71 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded72 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded73 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded74 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded75 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded76 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded77 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded78 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded79 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded80 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded81 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded82 [Simulation Model 1:1(Body4)||design_MArk2 v17:1] [S] Bonded83 [Simulation Model 1:1(Body4)||better_combined_innerlid v10:1] [S] Bonded84 [Simulation Model 1:1(Body4)||weights v2:1] [S] Bonded85 [Simulation Model 1:1(Body4)||holders v12:1] [S] Bonded86 [Simulation Model 1:1(Body4)||holders v12:1] [S] Bonded87 [Simulation Model 1:1(Body4)||weights v2:1] [S] Bonded88 [Simulation Model 1:1(Body4)||weights v2:1] [S] Bonded89 [Simulation Model 1:1(Body4)||weights v2:2] [S] Bonded90 [Simulation Model 1:1(Body4)||holders v12:2] [S] Bonded91 [Simulation Model 1:1(Body4)||holders v12:2] [S] Bonded92 [Simulation Model 1:1(Body4)||weights v2:2] [S] Bonded93 [Simulation Model 1:1(Body4)||weights v2:2] [S] Bonded94 [Simulation Model 1:1(Body4)||holders v12:1] [S] Bonded95 [Simulation Model 1:1(Body4)||holders v12:1] [S] Bonded96 [Simulation Model 1:1(Body4)||holders v12:2] [S] Bonded97 [Simulation Model 1:1(Body4)||holders v12:2] [S] Bonded98 [Simulation Model 1:1(Body4)||weights v2:1] [S] Bonded99 [Simulation Model 1:1(Body4)||weights v2:2] [S] Bonded100 [Simulation Model 1:1(Body3)||better_combined_innerlid v10:1] [S] Bonded101 [Simulation Model 1:1(Body3)||design_MArk2 v17:1] [S] Bonded102 [Simulation Model 1:1(Body3)||better_combined_innerlid v10:1] [S] Bonded103 [Simulation Model 1:1(Body3)||design_MArk2 v17:1] [S] Bonded104 [Simulation Model 1:1(Body3)||better_combined_innerlid v10:1] [S] Bonded105 [Simulation Model 1:1(Body2)||better_combined_innerlid v10:1] [S] Bonded106 [Simulation Model 1:1(Body2)||design_MArk2 v17:1] [S] Bonded107 [Simulation Model 1:1(Body2)||better_combined_innerlid v10:1] [S] Bonded108 [Simulation Model 1:1(Body2)||design_MArk2 v17:1] [S] Bonded109 [Simulation Model 1:1(Body2)||better_combined_innerlid v10:1] [S] Bonded110 [Simulation Model 1:1(Body1)||better_combined_innerlid v10:1] [S] Bonded111 [Simulation Model 1:1(Body1)||design_MArk2 v17:1] [S] Bonded112 [Simulation Model 1:1(Body1)||better_combined_innerlid v10:1] [S] Bonded113 [Simulation Model 1:1(Body1)||design_MArk2 v17:1] [S] Bonded114 [Simulation Model 1:1(Body1)||better_combined_innerlid v10:1]
Mesh
Type Nodes Elements Solids 420078 267733
Load Case1
Constraints
Frictionless1
Type Frictionless
Selected Entities
Pin1
Type Pin Radial Yes Axial Yes Tangential No
Selected Entities
Pin2
Type Pin Radial Yes Axial Yes Tangential No
Selected Entities
Loads
Gravity
Type Gravity Magnitude 9.807 m / s^2 X Value 0 m / s^2 Y Value 0 m / s^2 Z Value -9.807 m / s^2
Selected Entities
Angular Global Load1
Type Angular Global Load Velocity Magnitude 360 deg / s X Value 0 deg / s Y Value 0 deg / s Z Value -360 deg / s X Distance 0 mm Y Distance 0 mm Z Distance 0 mm
Selected Entities
Results
Result Summary
Frequency Participation X Participation Y Participation Z Mode 1: 130.3 Hz 0.0022 0 0 Mode 2: 693.8 Hz 0 0.0009 0.0504 Mode 3: 1016 Hz 0 0.0024 61.0096991 Mode 4: 1059 Hz 0.0013 0 0.0105 Mode 5: 1222 Hz 0 0.0065 0.434100023 Mode 6: 1234 Hz 0 0 0.040799999 Mode 7: 1572 Hz 0.012899999 0.0001 0.0734 Mode 8: 1589 Hz 0.0001 0.0181 15.7124996 Mode 9: 2216 Hz 0.0003 83.7180972 0.0005 Mode 10: 2715 Hz 47.1212 0.0003 0
Total Modal Displacement
Mode 1: 130.3 Hz Total Modal Displacement
0
1
Mode 2: 693.8 Hz Total Modal Displacement
0
1
Mode 3: 1016 Hz Total Modal Displacement
0
1
Mode 4: 1059 Hz Total Modal Displacement
0
1
Mode 5: 1222 Hz Total Modal Displacement
0
1
Mode 6: 1234 Hz Total Modal Displacement
0
1
Mode 7: 1572 Hz Total Modal Displacement
0
1
Mode 8: 1589 Hz Total Modal Displacement
0
1
Mode 9: 2216 Hz Total Modal Displacement
0
1
Mode 10: 2715 Hz Total Modal Displacement
0
1
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